Time controlled electric switch



April 1940- E. G. BEIDERMAN TIME CONTROLLED ELECTRIC SWITCH 2 She ets-Sheet 1 Original Filed May 20, 1935 A ORNEY.

UNDER PRESSURE souncs 0 uoum COHPRESSED AIR sauna:

Edward G B/eaerm April 9, 1940- E. c. BEIDERMAN TIME CONTROLLED ELECTRIC SWITCH 2 Sheets-Sheet 2 Original Filed May 20, 1935 5 I LS a 7 68 5 a 10 Z 6 41523; 2 m 2 3 .T\ 9 n L 1 U w 5 w 8 6 L. n H e W I}! 1- JIMWL h F 7 AV v 6 4 5 m 4 w 4% y w Fla? .INVENT OR.

Patented Apr. 9, 1940 UNITED STATES 2,196,488 TIME CONTROLLED ELECTRIC SWITCH Edward G. Beiderman, Detroit, Mich, assignor to The Clark Controller Company, Cleveland, Ohio, a corporation of Ohio Original application May 20, 1935, Serial No. 22,407, now Patent No. 2,047,573, dated July 14, 1936. Divided and this application June 13, 1936, Serial No. 84,981 i 28 Claims.

This invention relates to electric switches for controlling the duration of electric currents in electric circuits, particularly circuits in which impulses of short duration are utilized for various purposes, such for example as electric spotwelding.

The invention is particularly advantageous for controlling the duration of electric welding current when it is applied to the work to be welded by a so-called spot-welding gun and the invention will therefore be described herein in association with a welding apparatus of that character, although the invention is applicable to other types of welding apparatus and applicable to other arts than welding which utilize electric currents of timed duration.

In one general class of welding apparatus, a gun having jaw type electrodes is presented to the work to be welded to dispose the work between the jaws; a valve or other means on the gun is then operated by the operator to admit fluid under pressure to the gun to move the jaws to grip the work; and an electric switch is closed at the proper instant and for a suitable length 35 of time to send a welding current impulse over a suitable circuit through the jaws and the work to effect the weld; the jaws may thereafter be released by releasing the fluid pressure applied to the gun. 1 11.) It is an object of the present invention to provide an improved electric switch for controlling the welding current supplied to a welding gun, the switch and gun being both operable by fluid under pressure controlled by the gun operator.

Another object is to provide an electric switch of the class referred to having improved means to cause the gun to be operated by the fluid pressure before operation of the switch.

Another object is to provide a switch of the class referred to having improved means to effect instantaneous restoring of the switch upon interruption of the fluid pressure.

Another object is to provide an electric contactor or switch having improved means to-efiect operation thereof for a predetermined time interval only.

Another object is to provide an improved switch mechanism for controlling an electric circuit to energize the same with current impulses of timed duration.

Another object is to provide an electric switch having improved mechanism associated therewith of the fluid pressure operable type for effecting operation of the switch and for causing the switch to remain operated for a short predetermined period of time and then to be restored.

Another object is to provide an improved fluid pressure operable mechanism for controlling the operation of an electric switch and having improved means to effect rapid restoring of the fluid pressure operable mechanism.

Another object is to provide, in an electric switch having means to operate it to energize an electric circuit with current impulses of short duration, improved means for adjustably timing the duration of the impulses.

Other objects will be apparent to those skilled in the art to which my invention appertains.

My invention is fully disclosed in the following description taken in connection with the accompanying drawings, in which:

Fig. l is a front elevational view of a pneumatically operable electric switch or contactor and magnetically operable welding gun associated therewith and embodying my invention;

Fig. 2 is a sectional view taken from the plane 2-2 of Fi 1;

Fig. 3 is a view partly in section taken from the plane 33 'of Fig. 1 and drawn to an enlarged scale and illustrating parts thereof in their normal or restored positions;

Fig. 4 is a view similar to a part of Fig. 3 illustrating parts thereof in an operated position;

Fig. 5 is a view similar to a part of Fig. 3 illustrating parts thereof in another operated position; 1

Fig. 6 a fragmentary view taken approximately from the plane 6-6 of Fig. 3;

Fig. '7 is a fragmentary view to an enlarged scale taken from the plane 'l-1 of Fig. 1;

Fig. 8 is a fragmentary view similar to a part of Fig. 1 illustrating a modification.

Referring to the drawings, I have shown at l a base or panel preferably of insulating material. having spaced bearing brackets 2 and 3 upon which is oscillatably supported the rounded ends 4-4 of a shaft 5, a part of the length of which has telescoped thereon an insulating tube 5. Switch arms 11 are clamped on the shaft 5 and carry contacts 8-8 engageable with stationary contacts 9-9 mounted upon terminal blocks Ill-l on the panel I to which are connected terminals ll--ll. Terminals I2--l2 secured to the panel are connected'by flexible leads l3l3 to the contacts 8-8.

The parts just described constitute an electric switch or contactor of well known form whereby upon rotation of the shaft clockwise as viewed air in 2, contacts 8 and 9 will be engaged and vice versa will be disengaged to control current in conductors connected to the terminals H and E2. The details of construction of the contactor constitute no essential part of my invention. Any suitable construction may be employed, the preferred construction having the elements thus far described.

At H! is illustrated generally a welding gun having stationary and movable electrodes l5 and E6, the movable electrodes l6 being adapted to be moved, in a manner to be described, to compress, between the electrodes, work illustrated at E? to be welded. The electrodes [5 and I6 are upplied with welding current by the diagramsaticallv illustrated circuit including supply T. alns lSl8 connected to the switch terminals other electrode back to the other side of the to effect a weld at the work [1, and this out may e supplied from any suitable source the low voltage secondary of an alterig current transformer.

carrying at its outer end the electrode I6 and at its inner end connected to a piston 24 reciprocaole in a cylinder 25. A spring 26 normally holds the piston 24 toward the right or electrodedisengaged position; and compressed air may be admitted to the other side of the piston 24 to pro el it in the cylinder to engage the electrodes ag.. st tension. of the spring 25.

A handle .7 for the gun operator has reciprccable in a bore therein, a valve 28 of the piston valve having piston portions 29 and 39 substant ly the bore 3! and an interconnecting he 1: The valve 23 is normally disposed in an oil position by a spring 33 abutting upon the handle at one end and upon an operators valve button 34 at the other end; and in this position effects communication, by way of a duct 35 in. the handle. from the cylinder through the bore 3| around the neck 32 to atmosphere by way of an outlet duct 35.

When the operator presses the button 34, the valve 28 i moved over toward the left as viewed in the -ng, and first closes off the outlet 36 and then efiects communication of the duct with a conduit 31 connected to source of air under pressure; thereupon, the compressed air flows by way of the duct 35 to the cylinder 25 and operates the piston for the purpose described.

Any suitable means may be provided as the source of compressed air referred to, and the conduit 3? is preferably a flexible hose and may be of well lnown construction.

A branch duct 38 communicates with the duct and with another preferably flexible hose type conduit The conduits 39 and 37 may be connected to the handle 2'! by suitable threaded nipples thereon screwed into threaded bores in the handle as illustrated. The conduit 39 communicates with a cylinder and piston type pneumatic evice 40 to be described mounted on the panel I, .nd the conduit 353 as well as the conduit 3! of suitable length so that the panel i may be tationarily mounted on a wall, column or the like and the gun freely movable the operator from. point to point along his work. Furthermore, the conduit 32 may be intentionally provided of preselected inside diameter or may bc of inten filly increased length for a purpose to be close bed.

Referring now to the pneumatic device 41, at is a pneumatic cylinder the lower end of which is closed by a plug 32 threaded to receive a nipple on the end of the conduit 39, and the upper end of which is tireaded into a boss 43 on the bearing bracket 3 above referred to which secured to the panel A piston rod 44 reciprocable in a bore 45 in e boss and carries on its lower end a piston 45 fitting the bore 41 of the cylinder. The lower portion of the cylinder is separated. from the upper portion by a partition 48 having a perforation 45 therein, and, in the lower part of the cylinder. a pistcn-like valve 59 is reciprocatively fitted, normal y resting at its lower end upon the upper end of .e plug 42 and at its upper end portion provided with a shoulder 51 upon which one end of a spring 52 abuts, the other end of the spring abutting upon the partition 48.

Exhaust ports 5353 are provided extending through the cylinder wall and communicating with the interior of the cylinder at a point just above the shoulder 5i; and the valve 59 has a duct 54 extending longitudinally theretbrough. The operation of these parts will presently be described.

The upper end of the piston rod .4 is enlarged into a head 55 above the boss 43, providing shoulder 55 resting upon the upper side of th boss 43 and supporting the piston rod and piston and the parts of the piston rod above the shoulder. These parts comprise upwardly open tubular spring housing 5'5, a spring 51 the lower end of which abuts upon a shoulder 58 in the housing and the upper end of which abuts upon a finger 59 extending into the tubular housing through a slot and connected to the bracket 3. The bracket 3 has also an upper boss 5! in a bore of which the tubular extension 56 is reciprocatively supported. The head has secured thereto a cam 62 of the inclined plane type seated in a recess 63 in the head. and secured the recess by bolts 64-54 projected through the head threaded into the cam, and a plurality of shims 9595 is provided. at the bottom of the recess to adjustably position the cam laterally of the head.

The operation of the pneumatic device thus far described is as follows. When compressed air is supplied through the conduit 39, pressure thereof will at once lift the valve 50. causing it to cut off exhaust through the ports 53-53 and compre sing the spring 52; the compressed air, then holding the valve 50 in its upper position, will flow through the duct 54 and perforation 49 to the lower side of the piston 46 and will lift the piston and its piston rod 44 and the head 55 against pressure of the spring El, giving a quick upward thrust to the cam 52, and holding the piston and head 65 in the upper position, which position may be determined by e. shoulder 66 on the piston rod M in the cylinder 4!. The upward thrust is cushioned by the inherent yioldable characteristic of the compressed air being used.

\Vhen the pressure in the conduit 39 is released,

the spring 52 will instantaneously restore the valve 5|], downwardly, opening the ports 53-53 thereby releasing pressure under the piston 46 whereupon the spring 51 will instantaneously push the head 65 and piston rod 44 and piston 46 downwardly, engaging the shoulder 55 with the upper side of the boss 43, thus restoring the parts to their normal positions.

The above described operation is that which occurs when the valve 34 is operated rapidly, as in ordinary practice. If, however, the valve 28 be retained in its operated position for a substantial. though short interval of time, the pressure in the cylinder 4| which is communicated to the upper side of the valve 5|) will obviously become equal to the pressure on the underside of the valve 58, and the valve will be returned downwardly to its normal position by the spring 52, thereafter the piston 46 being held in its operated or upper position by reduced air pressure, since some of the applied pressure is released outwardly through the ports 53-53 so that the return spring 51 substantially balances the upward thrust of the air pressure on the piston, with the air pressure of course predominating to insure reliable operation. If, now, the valve 28 be released, the piston 46 will immediately descend to its normal position exhausting the slight remaining pressure outwardly through the ports 53-53. The quick return of the piston thus effected by the release of pressure thereunder by the next successive operation may be made in a very short interval of time thereafter.

An arm 61 is rigidly secured to the shaft 5 in any suitable manner, for example by a clamp ele ment 68 and bolts 6969 as shown in Fig. '1. A weight element 10 is rigidly secured to the arm 81 below the shaft and is preferably adjustably movable thereon to vary its distance from the shaft axis, which adjustment may be provided by a bolt 1| extending through a slot 12 in the weight and through a perforation in the arm 81 and the weight may have wings 13 engaging the sides of the arm 61to position it, the weight being clamped to the arm by the head and nut of the bolt 1|. It will be observed that the center of gravity of the weight 16 is approximately directly under the axis of the shaft 5, the axis of the shaft being at the center of the round end 4 of the shaft as shown in Fig. 3. It will also now be apparent that the arm 61 will oscillate in unison with the shaft 5.

A spring 14 abuts at one end upon the panel I and at its other end upon the head of a stud 15 threaded into a lug 16 on the arm 61, which lug is preferably a separate piece secured to the arm 61 by a screw 11 as shown in Fig. 6. The spring 14 thus constrains, the arm 61 and therefore the shaft 5 and its switch arms 1-1 to a counter-clockwise position as viewed in Fig. 3. The tension of the spring 14 may be adjusted by turning the stud 15 and locking it by nuts 18-18. The position of the arm 81 is determined by an adjustable stop 19 projected through a hole in the panel I, and adjustably positioned longitudinally and fixed on the panel by nuts 88-80 and the end of the post 19 abutting the arm 61 below the shaft.

Above the shaft 5, the arm 61 has mounted thereon a cam follower in the form of a roller 8|, rotatably supported in a forked pawl 82 which in turn is pivoted on a pin 83 mounted on the arm 61. A coilspring 84 wound around the pin 83 and secured at one end thereto as at 85-, has the other end engaging the underside of a pin 86 on the pawl 82 constraining the pawl to rotate clockwise as viewed in Fig. 3; and the pawl is stopped against clockwise rotation by engaging a portion 81 of the lug 16 but is free to rotate counter-clockwise.

The operation of the above-described apparatus will now be described. The normal position of the parts is that shown in Figs. 1, 2, and 3. The operator, preparing to make a weld, places the electrodes l5 and I6 relative to the work l1 as shown in Fig. l and then presses the valve button 34. Compressed air flows from the source through the conduit 31 through the duct 35 and, operating the piston 24, compresses the work between the electrodes with the desired welding pressure. Compressed air at the same time also flows from the conduit 31 through the ducts 35 and 38 to the conduit 39, and as above described in connection with Fig. 3, raises the valve 56 to close the escape ports 53 as shown in Fig. 4, and

shoots the piston and piston rod 44 upwardly,

against the pressure of the spring 51, giving a quick upward thrust to the cam 62. The cam 62 engages the roller cam follower 8| and rides thereover giving a clockwise impulse to the arm 81 against the pressure of the spring 14.

Before this impulse'is given to the arm 61, the contacts 8 and 9 are in their full open position as shown in broken lines in Fig. 3. As the arm 61 moves, the contacts approach each other as shown in Fig. 4. The upward impulse on the cam 62 carries it above and beyond the roller 8|.

In the preferred mode of operation, the cam 62 leaves the roller 8| on its up stroke before the contacts 8 and 9 engage each other, and the arm 61 continues to move clockwise as viewed in Fig. 3 due toits inertia which of course is largely determined by the weight 18; thus after the cam leaves the roller, the arm 61 continues to move, carries the contact 8 into engagement with the contact 9. The inertia is finally absorbed by the spring 14 in its effort to return the arm 61 and by the pressure reaction of the contacts 8 and 9, then the spring 14 restores the arm 81 against its stop 19 disengaging the contacts 8-9.

By adjustably moving the weight 10 toward or from the shaft axis as above described, or by adjustably changing the mass thereof, the inertia may be varied and thus the time duration of contact engagement and the corresponding duration of the current impulse therethrough may be varied adjustably. Similarly, the duration of the impulse may be varied by adjusting the spring 14 which absorbs a part of the inertia and accelerates the weight 10 in the restoring direction. I

Again, the duration of the impulse may be varied by adjustably changing the position of the cam 62 by adjustment of the shims 95, more shims causing the cam to engage the roller for a longer period and thus giving greater acceleration to the mass 10 and vice versa.

By this means as will now be clear, the contacts are engaged for a predetermined time interval and a current impulse of predetermined duration flows over the electric circuit above described through the electrodes l5 and I6 to effect a weld at the work. So long as the gun operator holds the button 34 in its depressed position, the cam 62 will remain in its upper position and the contacts having delivered a single impulse will remain open due to the fact that air pressure is maintained in the cylinder 4|.

Having completed a weld, the operator will now release the button 34 and the valve 28 will move back to it normal position, shutting off pressure from the source and exhausting pressure from the gun, from the conduit 39 through the a duct and out by the outlet 36. Thereupon the spring will restore downwardly the piston rod and the cam 62 and the cam will then ride over the roller follower 8i, rocking the pawl 82 out of its path as illustrated in Fig. 5. When the cam has passed the roller, the roller will be returned to. its norr a position by the spring 84.

A described hereinbefore, the operator holds the button 3 in operative position after the piston rod 4 has reached the top of its stroke and the pressure on opposite sides of the valve 53 becomes equalized, the valve 50 will return downwardly and reduce pressure under the piston by leak-"cs thr ugh the ports 53-53, so that when subs tly the valve is released, the piston will return downwardly substantially without retardation due to air pressure thereunder.

It is one of the particular advantages of my invention. that the contacts and 8 will close to supply the current pulse ys after the electrodes and l? have pressure-engaged the work Lch results :rom supplying the air presthe switclno 'ating cylinler 'il through sure to a conduit of substantial length whereas the builds up to spring value sufficient to compress the El and overcome the weight of the olungassociated parts operate the switch. This time delay may be effected by the resistance to a my tliro gh the conduit 32 and by the volumetric capaci thereof which must be satisfied before the pressure will rise to the switcl1-operating value and a le of conduit and diameter 4 of conduit may be provided that will effect a sufiicient delay in building up of pressure therein as described.

Switches of usual cons ruction such as that shown in. Fig. 2 gen rally mount the moving contact 8 on a sup l mental arm .lil rendered yieldaole by spring 65 whereby the engageand 9 is cushioned. The spring 9 naturally ezerts a resilient force tending to close the switch-closing iorce and thus is a part of the load whi the inertia above referred to must overcome and thus may be considered as a part or the force exerted by the spring T l during the period of actual engagement of the contacts l 9, but when once determined is constant and is accounted for when the inertia-produoing elements above described are adjusted.

In the foregoing, I have illustrated and described an apparatus utilizing compressed air to operate the welding gun and to operate the electric oontactor. In some aspects my invention is in. no sense lim ted to compressed air as the fiuid for operating the apparatus. Obviously, other gases than air under pressure can be employed, in which case the fluid pressure source connected to the conduit Fig. would be any compressed source instead of the compressed air source illustrated. Furthermore, my invention be practiced with fluid of liquid form. In such case it may be desirable to provide conduit means to conduct away from the gun and away om the cylinder 4?! the liquid discharged therefrom in the operation of the apparatus, and such an arrangement is shown in 8. The construction of the apparatus in this figure will be seen to be the same as that in the other figures except that the source of compressed air is replaced by a source of liquid under pressure indicated at l 06; the exhaust ports 53-433 discharge into an annular conduit H)! with which conimuni- 5 cates a discharge conduit V32 through which liquid discharged through the ports FEB-53 may be conducted away; and the outlet duct 35 of the gun communicates with a discharge conduit I03 by which the liquid discharged in the operation of the gun may be carried away.

It will be apparent, therefore, that my invention may be practiced with or liquid fluid and it is intended that the word fluid and derivatives thereof in the appended claims are to be interpreted with this meaning.

My invention is not limited to the exact details of construction shown and described. Changes and modifications may be made within the spirit of my invention and Without sacrificing its advantages and within the scope of the appended claims.

This application is divisional from my application Serial No. 22,497, filed May 20, 1935, for improvements in Time controlled clectr'c switches, which has issued into Patent Number 2,047 ,573, July 14, 1936.

I claim:

1. In a timing electric switch construction for controlling the duration of an electric current impulse for welding et cetera, an electric switch, a mechanism comprising a reciprocable element for operatin the switch for time interval and then eifecting restoring of it upon movement of the reciprocable element in one direction, and the mechanism being ineffective to operate the switch upon restoring movement of the reciprocable element, reciprooable fluid pressure operable means to reciprocate the reciprocablc element in said direction and means for restoring the reciprocable element and fluid operable means.

2. In a timing electric switch construction for controlling the duration of an electric current impulse for Welding et cetera, a switch, a mechanism comprising a reciprocable element for operating the switch for a time interval and then. restoring it upon movement of the reciprccable element in one direction, the mechanism being ineffective to operate the switch upon restoring movement of the reciprocable element, reciprocable fluid pressure operable means comprising a piston and cylinder operable to operate the reciprocable element in said direction, and r silient means for restoring the reciprocable element and fluid operable means.

3. An electric timing switch compr ng a pivotally supported switch arm, a weight connected to the arm, a cam element and a follower element, one being reciprocably movable to cammingly move the other, mechanism means communicating movement of the moved element to the switch arm, the cam and follower elements being formed to effect switch-operating and restoring movements of the arm during reciprocatory movement in one direction and to be ineffective to move the arm by reciprocatory element in the other direction, means to reciprocate the movable element to cause the switch to be operated for a redetermined interval and restored, means for adjustably varying the effectiveness of the 70 inertia of the weight and means to adjust the relative positions of the cam and follower whereby the time period during which the switch is in operated position may be adjustably varied.

4. In a switch construction, main b sup- 7 porting a switch contact, a shaft rotatably mounted on the base and supporting a switch arm carrying a contact, an operating arm secured to the shaft, a weight on the arm, a follower on the arm, a cylinder supported on the base, a piston reciprocable in the cylinder, a cam connected to the piston and disposed to engage the follower to move it in one direction of reciprocation and to idle over it in the other direction, an adjustment shim for adjustably positioning the cam relative to the follower, means for introducing compressed gas from a suitable source into the cylinder to reciprocate it in one direction, resilient means to reciprocably return it upon interruption of gas supplied to the cylinder, and an automatic valve to effect quick discharge of gas from the cylinder upon return reciprocation thereof.

5. An electric timing switch comprising a pivotally supported arm, a weight connected to the arm, mechanism means comprising a reciprocably movable element arranged to communicate its movement to the switch arm to effect switch operating and restoring movements of the arm during reciprocatory movement in one direction and to be ineffective to move the arm in the other reciprocatory direction, means to reciprocate the said element to cause the switch to be operated for a. predetermined interval and then restored, means for adjustably varying the effectiveness of the inertia of the weight to adjustably vary the time period during which the switch is in operated position.

6. In a switch construction, a main base supporting a switch contact, a shaft rotatably mounted on the base and supporting a switch arm carryinga contact, an operating arm secured to the shaft, a weight on the arm, a cylinder supported on the base, a piston reciprocable in the cylinder, means for introducing compressed gas from a suitable gas supply source into the cylinder to reciprocate the piston in one direction, resilient means to reciprocably return it upon interruption of gas supply to the cylinder, and mechanism operable by movement of the piston in said one direction to turn the shaft to engage the contacts and then to disengage them after a predetermined time interval, resilient means to reciprocably return the piston and means to adjust the inertia effector the weight on the arm to adjustably vary the time interval.

'7. In a switch construction, a main base supporting a switch contact, a shaft rotatably mounted on the base and supporting a switch arm carrying a contact, an operating arm secured to the shaft, a weight on the arm, a cylinder supported on the base, a piston reciprocable in the cylinder, means for introducing compressed gas irom a suitable supply source into the cylinder to reciprocate the piston in one direction, resilient means to reciprocably return it upon interruption of gas supply to the cylinder, and mechanism operable by movement of the piston in said one direction to turn the shaft to engage the contacts and then to disengage them after a predetermined time interval, resili ent means to reciprocably return the piston and an automatic valve to effect quick discharge of gas from the cylinder upon return reciprocation of the piston.

8. In a timed electric switch construction for controlling the duration of an electric current impulse for welding et cetera, and electric switch, a reciprocable cam mechanism for operating the switch for a time interval and then restoring it' upon movement of the cam mechanism in one direction, the cam mechanism being ineffective to operate the switch upon restoring movement of the cam mechanism, reciprocable fluid operable means to cushioningly operate the cam mechanism in said direction and means for restoring the cam mechanism and fluid operable means.

9. In a timed electric switch construction for controlling the duration of an electric current impulse for welding et cetera, a switch, a reciprocable cam mechanism for operating the switch for a time interval and then restoring it upon movement of the cam mechanism in one direction, the cam mechanism being ineffective to operate the switch upon restoring movement of the cam mechanism, reciprocable fluid operable means comprising a piston and cylinder operable to cushioningly operate the cam mechanism in said direction, and resilient means for restoring the cam mechanism and fluid operable means.

10. In an electric switch construction, a switch, means comprising a reciprocable element, cam mechanism effective in one direction of reciprocation only to operate the switch for a predetermined period and then restore the switch, the cam mechanism comprising a cam element having a camming surface and means to adiustably position the caming element to adjustably change the said predetermined time period.

11. In an electric switch construction, a switch, pneumatic means comprising a reciprocable element, cam mechanism effective in one directien of reciprocation only to operate the switch for a predetermined time period and then restore the switch, the cam mechanism comprising a cam element having a camming surface and shim means to adjustably position the cam element to adjustably change the said predetermined time period.

12. In an electric switch mechanism, a switch comprising a movable switch element, movable sure from the source to the chamber, -means to communicate movement of the movable wall to the mechanism element to move it from its normal position upon application of pressure of the source to the chamber, mechanism means effective during movement of the mechanism element from its normal position to both operate the switch for a predetermined period of time and then restore it, resilient restoring means opposing movement of the mechanism element to prevent the chamber wall from effecting movement of the movable element except at fluid pressure in the chamber above a predetermined value, the restoring means being effective to restore the movable element upon dis-continuing application of source pressure to the chamber.

13. The switch mechanism described in claim 12 and in which means is provided toreduce the pressure in the chamber after movement of the mechanism element to cause the restoring of the mechanism element to occur rapidly.

14. The mechanism described in claim 12 and in which the fluid pressure operable mechanism comprises a cam member and a cam follower member, one member being movable with the switch element and the other member being mov able with the said movable element and engageable with the said one member to move it during movement of the movable element from its normal position.

15. In an electric switch mechanism, a switch comprising a movable switch operable element arranged to have predetermined mass, a movable element movable from a normal position and returnable there to, actuating means for moving the movable element comprising, a cam member and a cam follower member, one supported by the switch element and the other by the movable element and mutually caniriinely eng geable and disengageable upon movement of the movable element from its normal position to effect a switch operating movement of the switch operating element, means yieldingly opposing movement of the switch operating element and stopping and restoring it after an interval of time predetermined by the mass of the switch operating element, and one said member being movably supported an yieldably movable out of the path of the other upon return movement of the movable element to its normal position to prevent camming engagement of the members.

16. 111 an electric switch mechanism for timing an e1ectric current, a stationary contact, a movable switch operating element carrying a movable contact and biased to a normal contact disengaged position and predetermined mass, a reciprocable element having a normal position, means to efiect reciprocation of the reciprocable element from and back to its normal position, a cam follower member and a cam member one carried by the switch ele int and. the other by the reciprecable element adapted to be successively caminingly engaged and disengaged upon recipro tion of the reciproca, le element in one direc on to effect successive engagement and disengagement of the con acts, mechanism to effect movement of the movazie switch operating element from its biased position, yieldable means opposing movement of switch operating element and stopping s movement and returning the switch operating mined time interval determined by the mass of the switch operating element.

17. The mechanism described in claim 1'5 and in which means is provided to change the inertia effect of said mass to adjustably vary the time during which the switch remains operated.

18. The mechanism described in claim 18 and in which means is provided to adjust the length of the time during which the contacts remain engaged comprising means to adjustably vary the inertia effect of said mass.

19. In an electric current timing switch mechanism a switch, a movable switch operat 0 member having predetermined mass, a recip ocally supported reciprocable element, a pneumatically operated mechanism to reciprocate it. mechanism to transmit reciprocatory movement of the reciprocable element in one direction of reciprocation to the switch operating inem. to move it to close the switch and then to pei t it to return to open the switch, yieldable means t open the switch and opening it after a predetermined time interval determined the predetermined mass of the switch operating me nber.

29. In an electric current timing switch mechanism, a main base, a shaft oscillatingly sup-- ported on the base, a switch arm carrying a contact connected to and oscillatable with the shaft, a contact on the base engageable by the arm carried contact, an operating arm connected to the shaft, a reciprocable element reciprocably supported on the base, a cam and cam follower, one carried by the operating arm and one carried by the reciprocable element and mutually engageable upon reciprocatory movement of the reciprocable element in one direction to move the operating arm to oscillate the shaft and close the contacts, and subsequently disengageable to permit the operating arm and switch arm to be restored, yieldable means constantly urging the said arm toward restored position, the cam and cam follower upon return reciprocation of the reciprocable element being inefiective to oscillate the shaft, a pneumatic cylinder supported on the base, a piston in the cylinder connected to the reciprocatory element to reciprocate it in said one direction upon communication of fluid pressure to the cylinder, and yieldable means constantly urging the reciprocable element in the said return direction, and returning it upon interruption of the fluid pressure communication.

21. In an electric timing switch mechanism, an electric switch comprising an oscillatable switch operating element having a normal switch restored position and having predetermined inertia provided by weight means having a center of mass spaced from the oscillation axis of the operating element, a reciprocatory act ing element biased to a normal position, means to reciprocatively move the actuating element from its normal position, mechanism means on the actuating element and on the switch operating element mutually engaged upon said reciprocative movement of the actuating elen t to give an impulse of force to the switch ope ing element to cause it to oscillatingly move to effect operation of the switch, yielding means tending to overcome the inertia of the switch operating element and to restore it and the switch. and doing so after a predetermined interval of time determined by the inertia of the switch onrating element during which period of time the switch remains operated, and means to adjustably vary the time interval comprising means to adjustably vary the distance of the said center of mass from the axis of oscillation to adjustab vary the inertia effect of the switch operating element.

22. In an electric timing switch mechanism an electric switch comprising a movably suppo ted operating switch element having a normal switch restored position and arranged to have predetermined mass, pneumatically operated actuating means to give the switch operating element an impulse of force to oscillate it in one direction to effect an operation of the switch, means yieldingly opposing the said movement of the switch operating element and effective to overcome it to restore the switch operating element to its normal position and to thereby restore the switch after a predetermined interval of time determined by the inertia of said mass.

23. The mechanism described in claim 22, and in which means is provided to adjust the time interval comprising means to adjustably vary the inertia effect of the said mass.

24. The mechanism described in claim 22, and in. which a part of the mass is in a weight disposed at a predetermined distance from the axis of oscillation and means is provided to adjustably vary the distance to adjustably vary the time interval.

25. In a timing electric switch construction for controlling the duration of an electric current impulse for welding et cetera, an electric switch comprising a switch operating element, a mechanism comprising a reciprocable element, a cam and a cam follower one associated with the switch operating element and the other with the reciprocable element, the reciprocable element upon reciprocation in one direction causing the cam follower and cam to engage and eifect operation of the switch and then to disengage and effect restoring of the switch, reciprocable fluid pressure operable means to reciprocate the reciprocable element in said one direction and means for restoring the reciprocable element and fluid pressure operable means.

26. In an electric switch mechanism, a switch, a movable element having a normal position, a source of fluid pressure, fluid pressure operable means comprising an expansible and contractable fluid pressure chamber having a pressure movable wall, means to communicate fluid pressure from the source to the chamber, means to communicate movement of the movable wall to the movable element to move it from its normal position upon application of pressure of the source to the chamber, means effective during movement of the movable element from its normal position to effect an operation of the switch for a predetermined period of time and then to effect restoring of it, restoring means opposing impulse for welding et cetera, an electric switch, a mechanism comprising a normally restored reciprocable element for operating the switch for a time interval and then effecting restoring of it upon movement of the reciprocable element in one direction, and the mechanism being ineffective to operate the switch upon restoring reciprocatory movement of the reoiproca'ble element, normally restored reciprocable fluid pressure operable means to reciprocate the reciprocable element in said direction upon communication of fluid pressure thereto, and the reciprocable element and fluid pressure operable means being arranged to return to normal positions upon interruption of the fluid pressure communication.

28. In a timing electric switch construction for controlling the duration of an electric current impulse for welding et cetera, an electric switch comprising a switch operating element, a mechanism comprising a normally restored reciprocable element, a cam and a cam follower one associated with the switch operating element and the other with the reciprocable element, the reciprocable element upon reciprocation in one direction causing the cam follower and cam to engage and effect operation of the switch and then to disengage and effect restoring of the switch, normally restored reciprocable fluid pressure operable means responsive to fluid pressure communicated thereto to reciprocate the reciprocable element in said one direction and the reciprocable element and fluid pressure operable means being arranged to return to restored positions upon interruption of the fluid pressure communication.

EDWARD G. BEIDERMAN. 

